Products and Services

Keysight Technologies, Inc. offers the N6841A RF sensor designed to provide a cost effective solution for placing a fully capable RF monitoring station where it is needed, when it is needed, for any duration of time, and without complex siting constraints or physical infrastructures. This sensor is capable of operation over a wide temperature range of -15°C to 55°C, and can withstand harsh environments without additional expensive protective enclosures.

The MA24118A power sensor is designed to provide accurate average power measurements from 10 MHz to 18 GHz over 60 dB of dynamic range. The sensor employs a "dual path" architecture that provides (similar to thermal sensor) True-RMS measurements over the entire frequency and dynamic range, enabling users to make highly accurate average power measurements for CW, multi-tone, and digitally modulated signal up to 18 GHz. The sensors have internal and external triggering capability that facilitates individual slot power measurements of TDMA waveforms as well as burst power measurements of periodic and non-periodic waveforms.

A signal’s average power isn’t a sufficient enough control variable for modern day communications. It’s still an important parameter, but today’s signals typically require more diagnostic measurements. Bird’s 7022 is a statistical power sensor that uses statistical sampling techniques to measure the percentage of time the signal exists at a specific peak-to-average ratio.

Anritsu USB power sensors eliminate the need for a traditional power meter. These highly accurate, standalone instruments communicate with a PC via USB or with most of the Anritsu handheld instruments (often requiring Option 19). The sensors measure true RMS power, so they are ideal for measuring CW, modulated RF waveforms (e.g. 3G, 4G and OFDM signals) and multi-tone signals. They are ruggedized for field use with an industry-leading +33 dBm damage level.

The Anritsu MA24105A Inline Peak Power Sensor is designed to take accurate average power measurements from 2 mW to 150 W and peak power measurements from 2 W to 300 W over the frequency range of 350 MHz to 4 GHz. The sensor employs a “dual path” architecture that enables True-RMS measurements over the entire frequency and dynamic range allowing users to measure CW, multi-tone and digitally modulated signals such as LTE, LTE-TDD, GSM/EDGE, CDMA, W-CDMA, WiMAX, TD-SCDMA, WLAN, and LTE. The forward direction path also include a 4 MHz bandwidth channel that has peak and comparator/integrator circuits that add measurement functions such as PEP power, crest factor, CCDF, and burst average power. Another detection circuit on the reverse direction adds reverse power measurement capabilities including reverse power, reflection coefficient (magnitude), return-loss, and SWR. The presence of a micro-controller along with signal conditioning circuitry, ADC, and power supply in the sensor makes it a complete miniature power meter.

These speed sensor heads feature low harmonic emission, low flick noise, high sensitivity, CW and pulse mode operation, FCC part 15 compliance, and more. They’re available with various different antenna types, making them versatile for various applications.

The MA24108A power sensor is designed to provide accurate average power measurements from 10 MHz to 8 GHz over 60 dB of dynamic range. The sensor employs a "dual path" architecture that provides (similar to thermal sensor) True-RMS measurements over the entire frequency and dynamic range, enabling users to make highly accurate average power measurements for CW, multi-tone, and digitally modulated signal up to 8 GHz. The sensors have internal and external triggering capability that facilitates individual slot power measurements of TDMA waveforms as well as burst power measurements of periodic and non-periodic waveforms.

The MA24208A is a power sensor designed with “triple path” architecture that provides True-RMS measurements for CW, multi-tone, and digitally modulated signals from 10 MHz to 8 GHz over 80 dB of dynamic range. The sensor employs high-performance digital processing which enables measurement speeds of >1,600 continuous power readings/s continuous and >11,000 buffered readings/s. It is intended to be used to increase throughput and reduce cost-of-test in any lab, high-volume manufacturing and field environment.

The Bird Directional Power Sensor (DPS) is the most flexible RF sensor on the market today. With this Dual-Socket, Thruline® sensor, you may select from a wide range of Bird Elements to tailor the unit to your needs over a wide range of frequencies and power levels.